Teaching natural sciences through English for the development of creative activity

Issue 55, 2024

Aigerim Konyssova, Kalipa Atemova, Zhussipbek Konarbayev, Gulnara Omarova, Saltanat Konyssova

Received 20.10.2023, Revised 27.01.2024, Accepted 18.03.2024

https://doi.org/10.54919/physics/55.2024.120bt5

Abstract

Relevance. The relevance of this study lies in the problem of developing the creative abilities of students of pedagogical universities at the level of integrated natural sciences teaching using English, which will allow them to develop their professional competencies at a high level.

Purpose. The purpose of the study is to formulate a model for the development of creative abilities of future teachers based on integrated learning in the framework of natural disciplines using the English language.

Methodology. The leading techniques for the study of this problem were the tests developed by N.P. Fetiskin, V.V. Kozlov, G.M. Manuilov to assess the degree of the creative potential of a person on a par with its implementation to demonstrate their skills at a high pedagogical level and create adapted conditions for cognitive and active work in the classroom with their future students, using the creative component. This component is responsible for many factors at the personality level of the future teacher, along with the ability to organise and conduct high-quality classes in natural subjects in English at the level of integrated learning, with a competent individual approach and a full-fledged discussion.

Results. The identified data enabled the creation of a model for organising the development of creative activity among future teachers during integrated lessons in natural sciences using English. This contributes to the deepening of knowledge in the areas under study with the accompanying substantial opportunities for creative development by including the examination of international thematic journals in English in the educational process, watching specialised integrated popular-science documentaries.

Conclusions. The results improve the understanding of the target area of the integrated lesson in the scientific and practical sphere on the investigation of natural phenomena and develops an understanding of the importance of relationships in life and a value attitude to nature, which determines its practical importance for the field of education.

Keywords: integrated learning; foreign language; natural science subjects; educational materials; education

Suggested citation

Konyssova A, Atemova K, Konarbayev Z, Omarova G, Konyssova S. Teaching natural sciences through English for the development of creative activity. Sci Herald Uzhhorod Univ Ser Phys. 2024;(55):1205-1216. DOI: 10.54919/physics/55.2024.120bt5

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References

  1. De Pisapia N, Bacci F, Parrott D, Melcher D. Brain networks for visual creativity: A functional connectivity study of planning a visual artwork. Sci Rep. 2016;6:39185.
  2. Absatova MA, Nishanbaeva S, Nurpeisova TB, Atemova KT. Experimental study on family formation and moral values of students. J Intell Disab – Diagn Treat. 2018;6(3):84-88.
  3. Dere Z. Investigating the creativity of children in early childhood education Institutions. Uni J Educ Res. 2019;7(3):652-658.
  4. Lev-Wiesel R, Hazan M, Daniel M, German V, Finger Z, Weinger S, Binson B. Children drawing violence: To what extent does it reflect actual experience. Arts Psychoth. 2020;71:101717.
  5. Moser S, Meerow S, Arnott J, Jack-Scott E. The turbulent world of resilience: Interpretations and themes for transdisciplinary dialogue. Clim Chang. 2019;153:21-40.
  6. Fetiskin NP, Kozlov VV, Manuilov GM. Socio-psychological diagnostics of the development of personality and small groups. Moscow: Publishing House of the Institute of Psychotherapy; 2002.
  7. Kim B. Think rich, feel hurt: The critique of capitalism and the production of affect in the making of financial subjects in South Korea. Cult Stud. 2016;31:1-2.
  8. Gamayunova V, Kovalenko O, Smirnova I, Korkhova M. The Formation of the Productivity of Winter Wheat Depends on the Predecessor, Doses of Mineral Fertilizers and Bio Preparations. Sci Hor. 2022;25(6):65–74.
  9. Tyliszczak B, Drabczyk A, Kudłacik S. Comparison of hydrogels based on commercial chitosan and beetosan® containing nanosilver. Molec. 2017;22(1):61.
  10. Dikanbayeva AK, Auyeshov AP, Satayev MS, Pirminova IV, Yeskibayeva CZ, Arynov KT. Influence of structural and molecular features of chrysotile on interaction within acid-chrysotile system. Rasayan J Chem. 2022;15(2):979–983.
  11. Auyeshov A, Satimbekova A, Arynov K, Bekaulova A, Yeskibayeva S, Idrisheva Z. Environmentally friendly and resource-saving technology for disposal of dusty asbestos- containing wastes and production of magnesium salts. ARPN J Engin Appl Sci. 2021;16(9):987–990.
  12. Zhumadilova AK, Madaliyeva EB, Zhigitova SZ. Conditions for the development of phase components K2CaP2O7, KCaP3O9 in toxic dust. Sci Hor. 2021;24(3):38–44.
  13. Imashev G, Abykanova BT, Rakhmetova MT, Tumysheva AA, Moldasheva RN, Ilyasova SS, Shahimova AA.. Development of polytechnic knowledge and abilities in the course of studying physics. Int J Environ Sci Educ. 2016;11(10):3595–3606.
  14. Jabagiyeva KR, Abduramanov A, Zhundibaeva BK, Zhumadilova AK. Theoretical basis of head loss definition in hydro cycle. Glob J Pure Appl Math. 2016;12(1):575–584.
  15. Kachanova T, Manushkina T, Kovalenko O. Features of growth and development of Lavandula angustifolia when grown under drip irrigation conditions in the Southern Steppe zone of Ukraine. Sci Hor. 2023;26(3):81–91.
  16. Skliar I, Skliar V, Klymenko A, Sherstiuk M, Zubtsova I. Growth signs of Nymphaea candida in various ecological and cenotic conditions of Desna basin (Ukraine). AgroLife Sci J. 2020;9(1):316–323.
  17. Naka L, Spahija D. Impact of english language as a human capital in the higher education institutions’ development strategy. Corpor Busin Strat Rev. 2022;3(2 special issue):262–272.
  18. Domaratskiy Y, Kovalenko O, Kachanova T, Pichura V, Zadorozhnii Y. Analysis of the Effectiveness of Biological Plant Protection on Sunflower Productivity under Different Cenosis Density under the Non-Irrigated Conditions of the Steppe Zone. Ecol Engin Environ Technol. 2023;24(9):45–54.
  19. Kovalenko O, Gamajunova V, Neroda R, Smirnova I, Khonenko L. Advances in nutrition of sunflower on the southern steppe of Ukraine. Soils Under Stress: More Work Soil Sci Ukraine. 2021;1:215–223.
  20. Kenzhebekova RI, Kozhadeldiyeva SS, Moldabek K, Rizaeva LA, Kazybayeva KU. Formation of Learning Research Skills through Solving Arithmetic Problems. Syst Rev Pharm. 2020;11(10):698–705.
  21. Ponomarenko YV, Kenzhebekova RI, Yessaliyev AA, Moldabek K, Larchenkova LA, Dairbekov SS, Jumagulova G. Pedagogical research methods of training in higher educational establishments: A comparative analysis. Math Educ. 2016;11(9):3221–3232.
  22. Tleubekova L, Atemova K, Turebayeva K, Kenzhebekova R. Development of Students' Creativity: Results of Practical Testing of the Learning Model during the Pandemic. Eur J Contemp Educ. 2023;12(2):655–666.
  23. Jenson K. Early childhood: Learning through visual art. He Kupu Word. 2018;5(3):75-82.
  24. Hobri Ummah IK, Yuliati N, Dafik. The effect of jumping task based on creative problem solving on student’s problem-solving ability. Int J Instr. 2020;13(1):387-406.
  25. Suarez J, Stencel A. A part-dependent account of biological individuality: Why holobionts are individuals and ecosystems simultaneously. Bio Rev. 2020;95:1308-1324.
  26. Hizi G. Zheng Nengliang and pedagogies of affect in contemporary urban China. Social Anal. 2021;65(1):23-43.
  27. Dunn CD. Creating bright, positive selves: Discourses of self and emotion in a Japanese public-speaking course. Ethos. 2016;44(2):118-132.
  28. Cozzarolo CS, Glaizot O, Christe P, Pigeault R. Enhanced attraction of arthropod vectors to infected vertebrates: A review of empirical evidence. Front Ecol Evol. 2020;8:296.
  29. Laili H. The effectiveness of the learning by using the approach of PBL and CTL terms of problem-solving ability and motivation to learn. Us-Embr: J Islam Educ Early Childh. 2019;1(1):125-141.
  30. Tleubekova L, Atemonova K, Isabayeva A, Nuridinova G, Bektayeva N, Sengerbekova B. Formation of student’s creativity potential in intellectual schools. J Org Behav Res. 2019;4(1):148-161.
  31. Park I. The effect of problem-based learning strategies on problem solving skill: A meta-analysis. J Korean Chem Society. 2019;10(10):197-205.
  32. Allan K. Going beyond language: Soft skilling cultural difference and immigrant integration in Toronto, Canada. Multiling. 2016;35(6):617-647.
  33. Hidayat RY, Hendayana S, Supriatna A, Setiaji B. Identification of student’s collaborative skills through learning sharing and jumping task on the topic of redox reactions. J Physic: Conf Series. 2020;1521:04205.
  34. Chou PN, Chang CC, Chen MY. Let’s draw: Utilizing interactive white board to support kindergarten children’s visual art learning practice. J Educ Techn Society. 2017;20(4):89-101.
  35. Suparman S, Juandi D, Tamur M. Review of problem-based learning trends in 2010-2020: A meta-analysis study of the effect of problem-based learning in enhancing mathematical problem-solving skills of Indonesian students. J Physic: Conf Series. 2021;1722(012103):1-9.
  36. Tamur M, Juandi D, Adem AMG. Realistic mathematics education in Indonesia and recommendations for future implementation: A meta-analysis study. J Teori Aplik Matem. 2020;4(1):17-27.
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